FIGURE 26-24 2Ω 4Ω 3Ω Four resistors of values 2 Ω, 4 Ω, 3 Ω, and 9 Ω are connected across an 8-V DC source as shown in Fig. 26-24. What is the current through the 9-Ω resistor? 0.7 A O2 A 0.5 A 0.9 A
2. Find V. 10 Ω ΛΑ + 5Ω + 1 V + 12 Ω V. 3 Ω 3. Find V. 8ΚΩ ΛΑ 2 ΚΩ 4 ΚΩ 4 ΚΩ 9V 2V
Find I, in the circuit of Fig. 2. 4Ω Ι, 22 2Ο | -2Ω j6Ω 60/30° V (4) ξ8 Ω 3 10 Ω Figure 2
2. For the following signals, calculate the inverse DTFT. (n-4) (b) F3(Ω)-4 cos(2Ω)-Dj sin(312) 2. For the following signals, calculate the inverse DTFT. (n-4) (b) F3(Ω)-4 cos(2Ω)-Dj sin(312)
Nhat is the equivalent resistance Rab? 4Ω 2Ω b 8Ω 4Ω Ο 6Ω Ο 4 Ω Ο 5Ω Ο 3 Ω
What is the time constant? What is the expected steady state value? 3(dω/dt)+2ω=0 ω(0)=4
Figure 3 12 Ω 3Ω 2Ω 9Ω + 1Ω Question 21 1 pts Question 21 pertain to figure 3 Which resistor of the circuit will have the most current flowing through it, regardless of the circuit voltage? The 1202 Ο The 9Ω The 22 The 1Ω Figure 4 4 amps A 3 amps ? amps Figure 4 Question 22 1 pts Question 22 pertain to figure 4 According to Kirchhoff's current law, the value of the current leaving junction "A"...
4. (10.6) Find the output voltage (as a phasor) in the circuit below. j1 Ω 2Ω W 2020° 192 5/20 5. (10.42) Find the currents and voltages (as phasors) in the circuit below containing an ideal transformer. WW th ot 20 7602 20200 & 10 6. (10.43) Find the voltage (as phasor) in the circuit below containing an ideal transformer. 2:1 2:1 rün 402 W W of 22 2020 -120 lllll j622 lo 7. If Li - 30 mH, L2...
[20pts] Using nodal analysis, determine lo in the circuit below 1L 4 ΩΣ 2Ω 1 10 Ω 8Ω - 60 ν(4) Bio -
Find V0 in the following circuit. Please show ALL work. 8 Ω + V. 4A 4 Ω 2Α W 1 Ω 2 Ω 2Ω 1 Ω